2.7 DNA replication, transcription and translation

Nitrogen is part of many important substances in living organisms.

Distinguish between transcription and translation.

Nitrogen is part of many important substances in living organisms.

Distinguish between transcription and translation.

Nitrogen is part of many important substances in living organisms.

Distinguish between transcription and translation.

DNA codes for the amino acid sequence of polypeptides. List two other functions of DNA.

DNA codes for the amino acid sequence of polypeptides. List two other functions of DNA.

DNA codes for the amino acid sequence of polypeptides. List two other functions of DNA.

Outline the role of the enzyme helicase in replication.

Outline the role of the enzyme helicase in replication.

Outline the role of the enzyme helicase in replication.

Meselson and Stahl investigated DNA replication by first feeding bacteria with bases containing ¹⁵N (heavy), and then with bases containing ¹⁴N (light). The results are shown in the photographs.

[Source: © International Baccalaureate Organization 2018]

From this information, what would be the composition of the DNA in generation 3?

A. There will be a single ¹⁴N band.

B. There will be a single ¹⁵N band and a single ¹⁴N band.

C. There will be a darker ¹⁴N band and a lighter hybrid band.

D. There will be a single ¹⁵N band, a single hybrid band and a single ¹⁴N band.

Meselson and Stahl investigated DNA replication by first feeding bacteria with bases containing ¹⁵N (heavy), and then with bases containing ¹⁴N (light). The results are shown in the photographs.

[Source: © International Baccalaureate Organization 2018]

From this information, what would be the composition of the DNA in generation 3?

A. There will be a single ¹⁴N band.

B. There will be a single ¹⁵N band and a single ¹⁴N band.

C. There will be a darker ¹⁴N band and a lighter hybrid band.

D. There will be a single ¹⁵N band, a single hybrid band and a single ¹⁴N band.

The diagram represents transcription and translation.

[Source: © International Baccalaureate Organization 2020.]

What structures do the letters X and Y represent?

The diagram shows mRNA codons.

[Source: elementix / Alamy Stock Photo]

The mRNA sequence UGGAACGUA codes for what amino acid sequence?

A. Glycine-Glutamine-Methionine

B. Methionine-Glutamine-Glycine

C. Threonine-Valine-Histidine

D. Tryptophan-Asparagine-Valine

The diagram shows mRNA codons.

[Source: elementix / Alamy Stock Photo]

The mRNA sequence UGGAACGUA codes for what amino acid sequence?

A. Glycine-Glutamine-Methionine

B. Methionine-Glutamine-Glycine

C. Threonine-Valine-Histidine

D. Tryptophan-Asparagine-Valine

The diagram represents transcription and translation.

[Source: © International Baccalaureate Organization 2020.]

What structures do the letters X and Y represent?

What is the reason for Taq DNA polymerase being used in the polymerase chain reaction (PCR)?

A. It does not denature at high temperatures.

B. It produces Okazaki fragments more rapidly.

C. It allows translation to proceed rapidly.

D. It works efficiently with helicase in PCR.

What is the reason for Taq DNA polymerase being used in the polymerase chain reaction (PCR)?

A. It does not denature at high temperatures.

B. It produces Okazaki fragments more rapidly.

C. It allows translation to proceed rapidly.

D. It works efficiently with helicase in PCR.

Outline the function of Rubisco and of spider silk in relation to their three-dimensional conformation.

Outline the function of Rubisco and of spider silk in relation to their three-dimensional conformation.

Outline the function of Rubisco and of spider silk in relation to their three-dimensional conformation.

Outline the role of DNA polymerase III in DNA replication.

Outline the role of DNA polymerase III in DNA replication.

Outline the role of DNA polymerase III in DNA replication.

Outline the role of three enzymes used in the replication of DNA.

Outline the role of three enzymes used in the replication of DNA.

Outline the role of three enzymes used in the replication of DNA.

Insulin is produced in β cells of the pancreas and not in other cells of the human body. Explain how differentiation of cells and regulation of gene expression allow proteins such as insulin to be produced in only certain types of body cell.

What are linked by hydrogen bonds?

A. Hydrogen and oxygen within a water molecule

B. Phosphate and sugar within a DNA molecule

C. Base and sugar between DNA nucleotides

D. Hydrogen and oxygen in different water molecules

Insulin is produced in β cells of the pancreas and not in other cells of the human body. Explain how differentiation of cells and regulation of gene expression allow proteins such as insulin to be produced in only certain types of body cell.

Insulin is produced in β cells of the pancreas and not in other cells of the human body. Explain how differentiation of cells and regulation of gene expression allow proteins such as insulin to be produced in only certain types of body cell.

What are linked by hydrogen bonds?

A. Hydrogen and oxygen within a water molecule

B. Phosphate and sugar within a DNA molecule

C. Base and sugar between DNA nucleotides

D. Hydrogen and oxygen in different water molecules

Outline how a protein is made in a cell by the process of translation.

Outline how a protein is made in a cell by the process of translation.

Outline how a protein is made in a cell by the process of translation.

Describe the function of three named enzymes involved in DNA replication.

Describe the function of three named enzymes involved in DNA replication.

Describe the function of three named enzymes involved in DNA replication.

Cells were grown in heavy nitrogen (¹⁵N) for many generations and then grown in light nitrogen (¹⁴N) for two rounds of DNA replication. Which diagram shows the result of the centrifuged DNA?

Cells were grown in heavy nitrogen (¹⁵N) for many generations and then grown in light nitrogen (¹⁴N) for two rounds of DNA replication. Which diagram shows the result of the centrifuged DNA?

Dolly the sheep was the first mammal to be cloned from an adult somatic cell.

_{[Source: Squidonius, Public domain, via Wikimedia Commons.
https://commons.wikimedia.org/wiki/File:Dolly_clone.svg.]}

Which DNA did Dolly inherit?

A.  Nuclear and mitochondrial DNA from the surrogate ewe

B.  Nuclear and mitochondrial DNA from the Finn-Dorset

C.  Mitochondrial DNA from the Scottish Blackface and nuclear DNA from the Finn-Dorset

D.  Mitochondrial DNA from the Scottish Blackface and nuclear DNA from the surrogate ewe

Dolly the sheep was the first mammal to be cloned from an adult somatic cell.

_{[Source: Squidonius, Public domain, via Wikimedia Commons.
https://commons.wikimedia.org/wiki/File:Dolly_clone.svg.]}

Which DNA did Dolly inherit?

A.  Nuclear and mitochondrial DNA from the surrogate ewe

B.  Nuclear and mitochondrial DNA from the Finn-Dorset

C.  Mitochondrial DNA from the Scottish Blackface and nuclear DNA from the Finn-Dorset

D.  Mitochondrial DNA from the Scottish Blackface and nuclear DNA from the surrogate ewe

Dolly the sheep was the first mammal to be cloned from an adult somatic cell.

_{[Source: Squidonius, Public domain, via Wikimedia Commons.
https://commons.wikimedia.org/wiki/File:Dolly_clone.svg.]}

Which DNA did Dolly inherit?

A.  Nuclear and mitochondrial DNA from the surrogate ewe

B.  Nuclear and mitochondrial DNA from the Finn-Dorset

C.  Mitochondrial DNA from the Scottish Blackface and nuclear DNA from the Finn-Dorset

D.  Mitochondrial DNA from the Scottish Blackface and nuclear DNA from the surrogate ewe

Dolly the sheep was the first mammal to be cloned from an adult somatic cell.

_{[Source: Squidonius, Public domain, via Wikimedia Commons.
https://commons.wikimedia.org/wiki/File:Dolly_clone.svg.]}

Which DNA did Dolly inherit?

A.  Nuclear and mitochondrial DNA from the surrogate ewe

B.  Nuclear and mitochondrial DNA from the Finn-Dorset

C.  Mitochondrial DNA from the Scottish Blackface and nuclear DNA from the Finn-Dorset

D.  Mitochondrial DNA from the Scottish Blackface and nuclear DNA from the surrogate ewe